Two genes play vital roles in malignant brain cancer

Two genes play important roles for the formation of malignant cancer in the brain. One gene prevents the formation of the tumor, while another gene promotes the tumor. This is shown in a new dissertation at Umeå University, Sweden.

"Understanding the importance of the genes to hold back malignant tumors can hopefully be of importance in the long term for cancer treatment," says Mahmood Faraz, PhD student at the Department of Radiation Sciences at Umeå University.

In his dissertation, Mahmood Faraz focused on the genes LRIG1 and LRIG2. They have their names of leucine-rich repeats and immunoglobulin-like domain proteins. The fact that these genes play a role in cancer is known since before, but their molecular mechanisms have so far been unclear. Several research groups around the world have for many years been trying to explain this mechanism.

By experimenting with mice, Håkan Hedman's research group in Umeå has shown that the LRIG1 gene acts as a tumor suppressor, that is, the gene counteracts the formation of tumors in the mice's brains. On the other hand, the other studied gene, LRIG2, appears to promote malignant brain tumor.

In Mahmood Faraz's thesis, it was shown that the tumor-inhibitory effect of the LRIG1 gene is partly related to other proteins, so-called receptor tyrosine kinases, RTKs. These RTKs play a key role in the development of tumors and they can contribute to several types of cancer if they are not inhibited. LRIG1 inhibits the migration of brain tumor cells partly through a specific RTK, MET (mesenchymal-epithelial transition). The other studied gene, LRIG2, promotes a tumor by modulating downstream signaling of another RTK, PDGFR.

In another project, Mahmood Faraz has been able to show which proteins that interact with LRIG1 change its function. Of a total of around 20 proteins it was shown that four proteins support LRIG1, but eight proteins inhibit LRIG1. Previously only one of these about 20 was described.

"These are really exciting discoveries. You can actually talk about a breakthrough of significance for the field. However, the data are very preliminary and more future research projects are needed to elucidate the mechanisms," says Mahmood Faraz.

In this interview, Haiying Zhang, Assistant Professor of Cell and Development Biology from the Department of Pediatrics at Weill Cornell Medicine talks to News – Medical about the importance of Exosomes.

At St. John's, we are building an innovation center in pharmaceutical technology. We are involved with double upping new drug delivery systems, as well as a new processing agreement. In addition, we are focussing on personalized medications.

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